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The Autonomic Nervous System

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1 The Autonomic Nervous System
Chapter 14 The Autonomic Nervous System

2 Autonomic Nervous System (ANS)
The ANS consists of motor neurons that: Innervate smooth and cardiac muscle and glands Make adjustments to ensure optimal support for body activities Operate via subconscious control

3 Autonomic Nervous System (ANS)
Other names Involuntary nervous system General visceral motor system

4 Somatic nervous system
Central nervous system (CNS) Peripheral nervous system (PNS) Sensory (afferent) division Motor (efferent) division Somatic nervous system Autonomic nervous system (ANS) Sympathetic division Parasympathetic division Figure 14.1

5 Somatic and Autonomic Nervous Systems
The two systems differ in Effectors Efferent pathways (and their neurotransmitters) Target organ responses to neurotransmitters

6 Somatic nervous system
Effectors Somatic nervous system Skeletal muscles ANS Cardiac muscle Smooth muscle Glands

7 Efferent Pathways Somatic nervous system
A, thick, heavily myelinated somatic motor fiber makes up each pathway from the CNS to the muscle ANS pathway is a two-neuron chain Preganglionic neuron (in CNS) has a thin, lightly myelinated preganglionic axon Ganglionic neuron in autonomic ganglion has an unmyelinated postganglionic axon that extends to the effector organ

8 Neurotransmitter Effects
Somatic nervous system All somatic motor neurons release acetylcholine (ACh) Effects are always stimulatory ANS Preganglionic fibers release ACh Postganglionic fibers release norepinephrine or ACh at effectors Effect is either stimulatory or inhibitory, depending on type of receptors

9 + + Figure 14.2 Neuro- transmitter at effector Cell bodies in central
nervous system Effector organs Peripheral nervous system Effect Single neuron from CNS to effector organs SOMATIC NERVOUS SYSTEM ACh + Heavily myelinated axon Stimulatory Skeletal muscle Two-neuron chain from CNS to effector organs ACh NE Unmyelinated postganglionic axon SYMPATHETIC Ganglion Lightly myelinated preganglionic axons + Epinephrine and norepinephrine ACh Stimulatory or inhibitory, depending on neuro- transmitter and receptors on effector organs AUTONOMIC NERVOUS SYSTEM Adrenal medulla Blood vessel ACh ACh Smooth muscle (e.g., in gut), glands, cardiac muscle PARASYMPATHETIC Lightly myelinated preganglionic axon Unmyelinated postganglionic axon Ganglion Acetylcholine (ACh) Norepinephrine (NE) Figure 14.2

10 Parasympathetic division Dual innervation
Divisions of the ANS Sympathetic division Parasympathetic division Dual innervation Almost all visceral organs are served by both divisions, but they cause opposite effects

11 Role of the Parasympathetic Division
Promotes maintenance activities and conserves body energy Its activity is illustrated in a person who relaxes, reading, after a meal Blood pressure, heart rate, and respiratory rates are low Gastrointestinal tract activity is high Pupils are constricted and lenses are accommodated for close vision

12 Role of the Sympathetic Division
Mobilizes the body during activity; is the “fight-or-flight” system Promotes adjustments during exercise, or when threatened Blood flow is shunted to skeletal muscles and heart Bronchioles dilate Liver releases glucose

13 ANS Anatomy

14 Parasympathetic Sympathetic Eye Eye Brain stem Salivary glands Skin*
Cranial Salivary glands Sympathetic ganglia Heart Cervical Lungs Lungs T1 Heart Stomach Thoracic Stomach Pancreas Liver and gall- bladder Pancreas L1 Liver and gall- bladder Adrenal gland Lumbar Bladder Bladder Genitals Genitals Sacral Figure 14.3

15 Visceral Reflexes Visceral reflex arcs have the same components as somatic reflexes Main difference: visceral reflex arc has two neurons in the motor pathway Visceral pain afferents travel along the same pathways as somatic pain fibers, contributing to the phenomenon of referred pain

16 of gastrointestinal tract
Stimulus Dorsal root ganglion Sensory receptor in viscera 1 Visceral sensory neuron Spinal cord 2 Integration center • May be preganglionic neuron (as shown) • May be a dorsal horn interneuron • May be within walls of gastrointestinal tract 3 Autonomic ganglion Efferent pathway (two-neuron chain) • Preganglionic neuron • Ganglionic neuron 4 5 Visceral effector Response Figure 14.7

17 Referred Pain Visceral pain afferents travel along the same pathway as somatic pain fibers Pain stimuli arising in the viscera are perceived as somatic in origin

18 Heart Lungs and diaphragm Liver Heart Gallbladder Liver Appendix
Stomach Pancreas Small intestine Ovaries Colon Kidneys Urinary bladder Ureters Figure 14.8

19 Control of ANS Functioning
Hypothalamus—main integrative center of ANS activity Subconscious cerebral input via limbic lobe connections influences hypothalamic function Other controls come from the cerebral cortex, the reticular formation, and the spinal cord

20 (reticular formation, etc.) Regulation of pupil size,
Communication at subconscious level Cerebral cortex (frontal lobe) Limbic system (emotional input) Hypothalamus Overall integration of ANS, the boss Brain stem (reticular formation, etc.) Regulation of pupil size, respiration, heart, blood pressure, swallowing, etc. Spinal cord Urination, defecation, erection, and ejaculation reflexes Figure 14.9

21 Hypothalamic Control Control may be direct or indirect (through the reticular system) Centers of the hypothalamus control Heart activity and blood pressure Body temperature, water balance, and endocrine activity Emotional stages (rage, pleasure) and biological drives (hunger, thirst, sex) Reactions to fear and the “fight-or-flight” system


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